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ASME 1981 International Gas Turbine Conference and Products Show

March 9–12, 1981

Houston, Texas, USA

Conference Sponsors:

ISBN:

978-0-7918-7964-1

In This Volume

Manufacturing Materials and Metallurgy (4)
Ceramics (5)
Structures and Dynamics (9)
Controls, Diagnostics and Instrumentation (4)
Education (2)
Process Industries (5)
General (2)

Volume 4: Manufacturing Materials and Metallurgy; Ceramics; Structures and Dynamics; Controls, Diagnostics and Instrumentation; Education; Process Industries; General

Manufacturing Materials and Metallurgy

Forging Simulations and Properties Achievable for Large Waspaloy Forgings for Land-Based Gas Turbines

S. N. Shah, G. J. Monti

GT 1981; V004T11A001https://doi.org/10.1115/81-GT-84

Abstract

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Topics: Engineering simulation , Forging , Forgings (Products) , Gas turbines , Simulation , Computer simulation , Cycles , Deformation , Heat , Heat transfer

Water-Cooled Gas Turbine Forged Bucket Development

M. F. Collins, P. W. Schilke

GT 1981; V004T11A005https://doi.org/10.1115/81-GT-174

Abstract

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Topics: Alloys , Design , Drilling , Gas turbines , Machining , Materials science , Mechanical properties , Water

Strengthening Mechanisms and Process Controls for Super Waspaloy

W. H. Couts, Jr., R. R. Biederman

GT 1981; V004T11A006https://doi.org/10.1115/81-GT-175

Abstract

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Topics: Alloys , Dislocations , Hammers , Heat , Low cycle fatigue , Process control , Rupture , Stress , Temperature , Tension

Experience With Large Heavy-Duty Gas Turbine Rotors

O. R. Schmoch, B. Deblon

GT 1981; V004T11A007https://doi.org/10.1115/81-GT-181

Abstract

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Topics: Gas turbines , Rotors , Cycles , Disks , Strength (Materials) , Structural design , Temperature

Ceramics

Materials Exposure Test Facilities for Varying Low-Btu Coal-Derived Gas

C. V. Nakaishi, L. K. Carpenter, L. W. Hawkins

GT 1981; V004T12A002https://doi.org/10.1115/81-GT-170

Abstract

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Topics: Coal , Test facilities , Ceramics , Combustion , High temperature , Turbines , Corrosion , Erosion

Material, Design, and Test Aspects of Ceramic Component Development

D. W. Richerson, C. R. Dins, H. L. Kington, L. J. Lindberg, W. D. Carruthers, A. D. Lane

GT 1981; V004T12A003https://doi.org/10.1115/81-GT-179

Abstract

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Topics: Design , Industrial ceramics , Testing , Ceramics , Engines , Gas turbines , Materials processing , Navy , Rotors , Stress

Development and Testing of a Ceramic Turbocharger Rotor

G. C. DeBell, J. R. Secord

GT 1981; V004T12A004https://doi.org/10.1115/81-GT-195

Abstract

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Topics: Ceramics , Rotors , Testing , Turbochargers , Vehicles , Dynamometers , Engines , Ignition , Manufacturing , Motors

NASA Gas Turbine Stator Vane Ring

H. M. Gersch

GT 1981; V004T12A005https://doi.org/10.1115/81-GT-208

Abstract

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Topics: Gas turbines , NASA , Stators , Casting , Ceramics , Fixturing , Machining , Manufacturing , Nitriding , Silicon nitride ceramics

Sintering Microstructure and Properties of Si₃N₄ and SiC Based Structural Ceramics

C. L. Quackenbush, J. T. Neil, J. T. Smith

GT 1981; V004T12A006https://doi.org/10.1115/81-GT-220

Abstract

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Topics: Ceramics , Sintering , Alloys , Bonding

Structures and Dynamics

Interactive Multi-Mode Blade Impact Analysis

A. Alexander

GT 1981; V004T13A004https://doi.org/10.1115/81-GT-79

Abstract

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Topics: Blades , Computer software , Missiles , Deformation , Gas turbines , Mode shapes

Rotating Blade Vibration Analysis Using Shells

A. W. Leissa, J. K. Lee, A. J. Wang

GT 1981; V004T13A005https://doi.org/10.1115/81-GT-80

Abstract

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Topics: Rotating blades , Shells , Vibration analysis , Blades , Disks , Finite element analysis , Mode shapes , Rotation , Turbomachinery

Transient Analysis of Rotor-Bearing Systems Using Component Mode Synthesis

H. D. Nelson, W. L. Meacham

GT 1981; V004T13A009https://doi.org/10.1115/81-GT-110

Abstract

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Topics: Bearings , Rotors , Transient analysis , Blades , Complex systems , Shock (Mechanics) , Simulation , Stress

The Use of Multi-Channel Radio Telemetering Techniques for Stress and Temperature Measurements in Gas Turbine Rotating Components

W. We-shung, Y. Wen-hu, L. Wen-fwu

GT 1981; V004T13A010https://doi.org/10.1115/81-GT-116

Abstract

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Topics: Gas turbines , Stress , Temperature measurement , Disks , Telemetry , Vibration , Blades , High temperature , Signals , Strain gages

A System to Measure the Response of a High-Speed Rotor to a Sudden Imbalance

R. J. Trippett

GT 1981; V004T13A011https://doi.org/10.1115/81-GT-117

Abstract

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Topics: Rotors , Blades , Dampers , Data acquisition systems , Displacement , Transients (Dynamics)

Development of the Self-Temperature Compensated Resistance Strain Gage Used up to 700 C

Z. Zhi-qi, H. Pei-qing

GT 1981; V004T13A012https://doi.org/10.1115/81-GT-118

Abstract

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Topics: Strain gages , Temperature , Gages , Electric bridges , Electromagnetic scattering , Engineers , Thermodynamic cycles

Optimum Friction Damping of a Flexible Rotor

D. H. Hibner, S. T. Bhat, D. F. Buono

GT 1981; V004T13A019https://doi.org/10.1115/81-GT-156

Abstract

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Topics: Damping , Friction , Rotors , Dampers , Bearings , Dynamic response , Gas turbines , Springs

The Quantitative Analysis of Three-Dimensional Displacement Fields by Single Laser Hologram

Zhong Ji-sheng, Zhou Li-cha, Yang Shi-jie, Ren Ji-lien

GT 1981; V004T13A025https://doi.org/10.1115/81-GT-215

Abstract

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Topics: Displacement , Holography , Lasers , Holographic interferometry , Deformation , Finite element analysis , Reliability

Unbalance Response of a Two Spool Gas Turbine Engine With Squeeze Film Bearings

E. J. Gunter, D. F. Li, L. E. Barrett

GT 1981; V004T13A026https://doi.org/10.1115/81-GT-219

Abstract

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Topics: Bearings , Gas turbines , Generators , Rotors , Engines , Dynamic analysis , Resonance , Rolling bearings , Stress , Turbines

Controls, Diagnostics and Instrumentation

Turbine Pyrometry: An Equipment Manufacturer’s View

T. G. R. Beynon

GT 1981; V004T14A001https://doi.org/10.1115/81-GT-136

Abstract

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Topics: Turbines , Pyrometers , Signals , Blades , Design , Gas turbines , Lenses (Optics) , Maintenance , Metals , Noise (Sound)

A Versatile Microprocessor Controller for Low Cost Helicopter Applications

N. A. Justice

GT 1981; V004T14A002https://doi.org/10.1115/81-GT-137

Abstract

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Topics: Control equipment , Design , Gas turbines

Using Microprocessors in Fault Monitoring of Aircraft Electronics

A. Maybanks

GT 1981; V004T14A003https://doi.org/10.1115/81-GT-138

Abstract

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Topics: Aircraft , Electronics , Engines , Circuits , Computer software , Energy consumption , Fault diagnosis , Safety , Signals

Full-Authority Digital Electronic Controls for Civil Aircraft Engines

R. Kendell

GT 1981; V004T14A004https://doi.org/10.1115/81-GT-139

Abstract

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Topics: Aircraft engines , Design , Electronics , Engines , Life cycle costing , Military systems , Power stations , Reliability

Education

Gas Turbine Data Acquisition Using a Microcomputer

K. C. Weston

GT 1981; V004T15A001https://doi.org/10.1115/81-GT-83

Abstract

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Topics: Data acquisition , Gas turbines , Data acquisition systems , Engineering education , Hardware , Storage , Transducers

NASA Research in Aeropropulsion

W. L. Stewart, R. J. Weber

GT 1981; V004T15A003https://doi.org/10.1115/81-GT-96

Abstract

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Topics: NASA , Aircraft propulsion , Aviation , Military vehicles

Process Industries

Equivalent Performance Testing of Multi-Section Compressors

M. A. Strite, N. A. Samurin

GT 1981; V004T16A001https://doi.org/10.1115/81-GT-150

Abstract

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Topics: Compressors , Testing performance , Testing , Resolution (Optics)

Deposition: Hot Corrosion in Gas Turbine Engines

N. S. Bornstein, M. A. DeCrescente

GT 1981; V004T16A002https://doi.org/10.1115/81-GT-153

Abstract

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Topics: Corrosion , Gas turbines , Oxidation , Turbine components , Aircraft , Contamination , Crystals , Fuels , Protective coatings , Seas

Refrigerating Gas Turbine Compressor Air Intake

R. M. Sadek

GT 1981; V004T16A003https://doi.org/10.1115/81-GT-176

Abstract

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Topics: Compressors , Gas turbines , Compression , Flow (Dynamics) , Temperature

Evaluation of the Impact on CGT Operation When Converting to Crude Oil Fuel

J. H. Meyer

GT 1981; V004T16A004https://doi.org/10.1115/81-GT-207

Abstract

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Topics: Crude oil , Fuels , Combustion gases , Turbines

Mechanical Design of a High Efficiency 7.5 MW (10,000 HP) Gas Turbine

J. P. Van Buijtenen, W. M. Farrell

GT 1981; V004T16A005https://doi.org/10.1115/81-GT-210

Abstract

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Topics: Design engineering , Gas turbines , Rotors , Bearings , Combustion , Combustion chambers , Compressors , Stators , Temperature , Thermal efficiency